Eleven years of alloimmunization in 6496 patients with sickle cell disease in France who received transfusion.

ABSTRACT: Red blood cell (RBC) transfusion is a major therapy for sickle cell disease (SCD). Patients are at risk of forming antibodies to RBC antigens, which can result in the impossibility to find compatible units and can cause hemolytic transfusion reactions. This retrospective study investigates the evolution of RBC consumption and the frequencies, specificities, and chronology of the appearance of antibodies in a population of patients consistently receiving RH (C, D, E, c, e) and K-matched RBC units (RBCus) from a predominantly European donor population. Over the 11-year period in the Paris area, 6496 patients received transfusion at least once for a total of 239 944 units. Antibodies were made by 1742 patients. The first antibodies of a patient were predictive of subsequent immunization. By the 17th RBCu transfused (by the 20th, excluding warm autoantibodies), 75% of the patients who would make antibodies had made their first. By the 16th, 90% who would make antibodies to a high frequency antigen had made their first antibody to these antigens. Females made their first antibodies slightly earlier than males. Patients who received multiple transfusions (>50 units) had a higher immunization prevalence than those who rarely received transfusion (<12 units) but fewer clinically significant antibodies. Patients with SCD and prophylactic RH-K matching not immunized by the 20th RBCu are likely to have a low alloimmunization risk (to antigens other than RH-K), that is, be low responders, especially relative to the most clinically significant antibodies. This number of 20 units is a point before which close monitoring of patients is most important but remains open to future adjustment.

Ex Vivo Activation of Red Blood Cell Senescence by Plasma from Sickle-Cell Disease Patients: Correlation between Markers and Adhesion Consequences during Acute Disease Events.

BACKGROUND: Blood transfusion remains a key treatment for managing occlusive episodes and painful crises in sickle-cell disease (SCD). In that clinical context, red blood cells (RBCs) from donors and transfused to patients, may be affected by plasma components in the recipients' blood. Senescence lesion markers appear on the red cells after transfusion, shortening the RBC lifespan in circulation. In the specific context of SCD, senescence signals can also trigger the occlusive painful events, typical of the disease. This work follows through our previous data that described a RBC senescence process, rapidly detected after challenge with SCD pathological plasmas. In this clinical context, we wanted here to further explore the characteristics and physiologic consequences of AA RBC lesions associated with senescence, as lesions caused by RBCs after transfusion may have adverse consequences for SCD patients. METHODS: Plasma samples from SCD patients, with acute symptoms (n = 20) or steady-state disease (n = 34) were co-incubated with donor AA RBCs from blood units for 24 to 48 h. Specific markers signing RBC senescence were quantified after the incubation with SCD plasma samples. The physiologic in-flow adhesion was investigated on senescent RBCs, an in vitro technic into biochips that mimic adherence of RBCs during the occlusive events of SCD. RESULTS: Senescence markers on AA RBCs, together with their in-flow adhesion to the plasma-bridging protein thrombospondin, were associated with the clinical status of the SCD patients from whom plasma was obtained. In these experiments, the highest values were obtained for SCD acute plasma samples. Adhesion of senescent RBCs into biochips, which is not reversed by a pre-treatment with recombinant Annexin V, can be reproduced with the use of chemical agents acting on RBC membrane channels that regulate either Ca2+ entry or modulating RBC hydration. CONCLUSION: We found that markers on red cells are correlated, and that the senescence induced by SCD plasma provokes the adhesion of RBCs to the vessel wall protein thrombospondin. In-flow adhesion of senescent red cells after plasma co-incubations can be reproduced with the use of modulators of RBC membrane channels; activating the Piezo1 Ca2+ mechanosensitive channel provokes RBC adhesion of normal (non-senescent) RBCs, while blocking the Ca2+-dependent K+ Gardos channel, can reverse it. Clinically modulating the RBC adhesion to vascular wall proteins might be a promising avenue for the treatment of painful occlusive events in SCD.

Cytokine changes in sickle-cell disease patients as markers predictive of the onset of delayed hemolytic transfusion reactions.

BACKGROUND: Changes in cytokine production are known to contribute to the pathogenesis of sickle-cell disease (SCD), particularly in painful acute complications (crises) and episodes of post-transfusion hemolysis. Little is known about cytokine profiles in patients with these complications. STUDY DESIGN AND METHODS: We investigated possible associations between cytokine profile and the onset of delayed hemolytic transfusion reactions (DHTRs), particularly during acute-phase episodes, to improve characterization of the biological parameters predictive of such events. We included SCD patients with severe acute symptoms (n = 36) or steady-state disease (n = 31), both possibly leading to a DHTR (n = 18) event. Luminex® technology was used to determine the plasma concentrations of 23 cytokines. RESULTS: Regardless of clinical context, the concentrations of interleukin (IL)-6, IL-10, inducible protein-10, and macrophage inflammatory protein-1ß were higher in plasma samples from SCD patients than in those from healthy controls. IL-6 and IL-10 concentrations were even higher in acute-phase plasma samples from SCD patients. In addition, IL-27 and TNFα levels were higher, and IL-6 and RANTES levels were lower in acute-phase SCD patients just before the onset of DHTR than in patients experiencing painful occlusive episodes. CONCLUSION: In addition to reporting the plasma cytokine profiles of SCD patients in various clinical phases of the disease, we provide the first evidence of a significant association between low plasma TNFα concentration, high plasma IP-10 concentration and the onset of DHTR in SCD patients.

New molecular basis associated with CD36-negative phenotype in the sub-Saharan African population.

BACKGROUND: CD36 glycoprotein is expressed by various cell types, including platelets (PLTs), monocytes, and erythroid precursors, and is also the receptor for several ligands. However, absence of CD36 expression seems asymptomatic and is poorly described in Caucasians. In contrast, the frequency reaches 7% and 11% in African Caribbean and Asian persons, respectively. Lack of CD36 expression exposes to the risk of immunization in case of pregnancy or PLT transfusion. Two types of deficiency have been described: in Type I, PLTs and monocytes lack CD36 expression and the subjects are homozygous or compound heterozygous for CD36 mutations, whereas in Type II, only PLTs (Type IIa), and rarely also erythroid cells (Type IIb), are affected. Molecular events leading to Type II deficiency are poorly understood. CASE REPORT: An African girl, diagnosed with homozygous sickle cell disease and regularly transfused, was assessed for PLT CD36 expression by immunofluorescence microscopy. The deficiency was then confirmed by monoclonal antibody immobilization of PLT antigen (MAIPA) assay, and the subtype was assessed by flow cytometry. The underlying molecular basis was characterized by DNA sequencing. Furthermore, we tested the serum for possible anti-CD36 immunization. RESULTS AND CONCLUSION: Flow cytometric analysis on the patient's blood samples allowed the diagnosis of Type I CD36 deficiency. CD36 antibodies, probably due to her past history of red blood cell transfusions, were identified by MAIPA and by Luminex technology assay. Interestingly, we identified through sequencing a new molecular basis involved in CD36 deficiency: two adenines were replaced by one guanine in Exon 4 (c.367_368delAAinsG) leading to a stop codon at Position 76.

Complement activation in sickle cell disease: Dependence on cell density, hemolysis and modulation by hydroxyurea therapy.

The complement system is an innate immune defense cascade that can cause tissue damage when inappropriately activated. Evidence for complement over activation has been reported in small cohorts of patients with sickle cell disease (SCD). However, the mechanism governing complement activation in SCD has not been elucidated. Here, we observe that the plasma concentration of sC5b-9, a reliable marker for terminal complement activation, is increased at steady state in 61% of untreated SCD patients. We show that greater complement activation in vitro is promoted by SCD erythrocytes compared to normal ones, although no significant differences were observed in the regulatory proteins CD35, CD55, and CD59 in whole blood. Complement activation is positively correlated with the percentage of dense sickle cells (DRBCs). The expression levels of CD35, CD55, and CD59 are reduced in DRBCs, suggesting inefficient regulation when cell density increases. Moreover, the surface expression of the complement regulator CD46 on granulocytes was inversely correlated with the plasma sC5b-9. We also show increased complement deposition in cultured human endothelial cells incubated with SCD serum, which is diminished by the addition of the heme scavenger hemopexin. Treatment of SCD patients with hydroxyurea produces substantial reductions in complement activation, measured by sC5b-9 concentration and upregulation of CD46, as well as decreased complement activation on RBCs in vitro. In conclusion, complement over activation is a common pathogenic event in SCD that is associated with formation of DRBCs and hemolysis. And, it affects red cells, leukocytes and endothelial cells. This complement over activation is partly alleviated by hydroxyurea therapy.

Evidence of benefits from using fresh and cryopreserved blood to transfuse patients with acute sickle cell disease.

BACKGROUND: The transfusion of red blood cell (RBC) concentrates is the main treatment for acute vaso-occlusive symptoms in sickle cell disease (SCD). Units of packed RBCs (pRBCs) must retain optimal characteristics for transfusion throughout the storage period. Transfused RBCs interact with the plasma and the endothelium that lines blood vessels and may be the target of immune-hematologic conflict if the patient produces antibodies against RBCs. Questions remain concerning the benefit-risk balance of RBC transfusions, in particular about the shelf-life of the units. STUDY DESIGN AND METHODS: Plasma samples from 33 hemoglobin SS patients with SCD who had severe acute-phase symptoms or were in steady-state were put in contact with 10 fresh-stored and older stored samples from the same 10 RBC units. The factors affecting RBC survival (phosphatidylserine exposure, cytosolic calcium influx, cell size reduction) were analyzed. RESULTS: We show that the effects of plasma samples from patients with SCD on pRBCs depend on the clinical condition of the patients and the duration of red cell storage. Signs of RBC senescence were correlated with the clinical status of the patient from whom the plasma sample was obtained. A decrease in RBC size and an increase in phosphatidylserine exposure were correlated with the duration of RBC storage. The behavior of cryopreserved pRBCs was similar to that of fresh refrigerated RBCs when challenged with patient plasma samples. CONCLUSION: The key points of this study are that the clinical condition of patients with SCD can negatively affect the integrity of pRBCs for transfusion, and those effects increase with longer storage. Also, cryopreserved pRBCs behave similarly to fresh RBCs when challenged with plasma samples from patients with SCD in acute phase. Our data provide the first evidence that fresh RBCs stored for short periods may be of greater benefit to patients with SCD than RBCs that have been refrigerated for longer periods, particularly for those who have acute symptoms of SCD.